高学睿
基本信息:
高学睿,博士,副研究员,陕西咸阳人。
毕业院校:
中国水利水电科学研究院
专业:
水文学与水资源
研究领域:
流域水循环模拟与水资源高效利用;
实体水-虚拟水耦合流动理论与统筹管理
工作经历:
2017.1-至今,西北农林科技大学水保所,副研究员;
2015.7-2016.12,西北农林科技大学水保所,助理研究员;
2013.7-2015.6,中国水科院水资源研究所,工程师。
科学成果:
长期从事流域水循环模拟和水土资源管理研究,从农田“四水”转化机制为切入点,延伸到旱区生态植被耗水过程与水文过程模拟,并进一步聚焦黄土高原生态和经济系统用水过程及伴生效应,提出了基于实体水-虚拟水统筹管理、水安全协同保障方法。近些年主持国家和省部级课题10余项,发表论文40余篇,以第一/通讯作者发表SCI/EI 论文22篇(SCI 论文16 篇),其中中科院一区期刊7篇,发表著作4部,授权和申请发明专利5项,荣获全球人居环境绿色技术奖等科技奖励3项,入选陕西省首届秦岭生态环境保护“青年学者”
代表性论著:
[1]著作:刘家宏,高学睿,刘淼,秦韬,栾清华等. 海河流域土壤水监测数据集成与土壤水效用评价, 科学出版社, 2015年6月。
[2]著作:王浩,褚俊英,栾清华,刘扬,高学睿,秦韬等. 海河流域城市水循环模式, 科学出版社,2016年1月。
[3]Xuerui Gao, Jiahong Liu*, Jun Zhang, Jinyue Yan, Shujun Bao, He Xu, Tao Qin. Feasibility evaluation of solar photovoltaic pumping irrigation system based on analysis of dynamic variation of groundwater table. Applied Energy, 2013, 105, 182-193.
[4]Xuerui Gao, Yong Zhao, Shibao Lu, Qianyun Chen, Tingli An, Xinxueqi Han, La Zhuo. Impact of coal power production on sustainable water resources management in the coal-fired power energy bases of Northern China. Applied Energy, 2019, 250: 821-833.
[5]Xuerui Gao, Chengsheng Yan, Yubao Wang, Xining Zhao, Yong Zhao, Miao Sun, Shouzhang Peng. Attribution analysis of climatic and multiple anthropogenic causes of runoff change in the Loess Plateau—A case-study of the Jing River Basin. Land Degradation and Development, 2020, 1–19.
[6]Xuerui Gao, Miao Sun, Qi Zhao, Pute Wu*, Xining Zhao*, Wenxiang Pan, Yubao Wang. Actual ET modelling based on the Budyko framework and the sustainability of vegetation water use in the loess plateau. Science of the Total Environment, 2017, 579: 1550-1559.
[7]Xuerui Gao, Qi Zhao, Xining Zhao*, Pute Wu, Wenxiang Pan, Xiaodong Gao, Miao Sun, Temporal and spatial evolution of the standardized precipitation evapotranspiration index (SPEI) in the Loess Plateau under climate change from 2001 to 2050. Science of the Total Environment, 2017, 595: 191-200.
[8]Xuerui Gao, Chuiyu Lu, Qinghua Luan, Shuyu Zhang, Jiahong Liu, Dongmei Han. Mapping Farmland-Soil Moisture at a Regional Scale Using a Distributed Hydrological Model: Case Study in the North China Plain. Journal of Irrigation and Drainage Engineering, 2016, 142 (9): 04016029.
[9]Xuerui Gao, Jianhua Wang, Pute Wu, Yong Zhao, Xining Zhao, Fan HE. Evaluation of Soil Water Availability (SWA) Based on Hydrological Modelling in Arid and Semi-Arid Areas: A Case Study in Handan City, China, Water, 2016, 8, 360.
[10]Xuerui Gao, Ai Wang, Yong Zhao, Xining Zhao, Miao Sun, Junkai Du and Chengcheng Gang. Study on Water Suitability of Apple Plantations in the Loess Plateau under Climate Change. International journal of environmental research and public health, 2018, 15, 2504.
[11]Xuerui Gao, Shibao Lu, Wei Li, et al. Rainfall variation prediction using SD technology based on temperature model for Weihe River basin. Journal of Water and Climate Change, 2018, jwc2018048.
[12]Xuerui Gao, Miao Sun, Yong Zhao, Pute Wu, Shan Jiang, La Zhuo. The Cognitive Framework of the Interaction between the Physical and VirtualWater and the Strategies for Sustainable Coupling Management. Sustainability, 2019, 11, 2567.
[13]Xuerui Gao, Miao Sun, Qinghua Luan, Xining Zhao, Jichao Wang, Guohua He, Yong Zhao. The spatial and 1 temporal evolution of the actual evapotranspiration (AET) based on the remote sensing method in the Loess Plateau. Science of the Total Environment, 2020, 708: 135111.
[14]Shibao Lu, Xuerui Gao*, Pute Wu, Wei Li, Xiao Bai, Miao Sun, Ai Wang. Assessment of the treatment of domestic sewage by a vertical-flow artificial wetland at different operating water levels [J]. Journal of Cleaner Production, 2019, 208, 649-655.
[15]Shibao Lu, Xuerui Gao, Wei Li, Shuli Jiang, Li Huang. A study on the spatial and temporal variability of the urban residential water consumption and its influencing factors in the major cities of China. Habitat International, 2018, 78: 29-40.
[16]Qi Zhao, Qianyun Chen, Mengyan Jiao, Pute Wu*, Xuerui Gao*, Meihong Ma and Yang Hong. The Temporal-Spatial Characteristics of Drought in the Loess Plateau Using the Remote-Sensed TRMM Precipitation Data from 1998 to 2014. Remote Sensing, 2018, 10, 838. (SCI)
[17]Miao Sun, Qin’ge Dong, Mengyan Jiao, Xining Zhao*, Xuerui Gao*, Pute Wu, Ai WANG.. Estimation of Actual Evapotranspiration in a Semiarid Region Based on GRACE Gravity Satellite Data-A Case Study in Loess Plateau. Remote Sens. 2018, 10, 2032. (SCI)
[18]Yizi Shang, Xiaofei Li, Xuerui Gao*, Yanxiang Guo, Yuntao Ye, Ling Shang. Influence of Daily Regulation of a Reservoir on Downstream Navigation [J]. Journal of Hydrologic Engineering, 2017, 22, 8.(SCI)
[19]Wenxiang Pan, Baodeng Hou, Ruixiang Yang, Xuzhu Zhan, Wenkai Tian, Baoqi Li, Weihua Xiao, Jianhua Wang, Yuyan Zhou, Yong Zhao and Xuerui Gao*. Conceptual Framework and Computational Research of Hierarchical Residential Household Water Demand. water, 2018,10.696. (SCI)
[20]高学睿, 董斌, 秦大庸, 孙宁宁, 张芝永. 用DrainMOD模型模拟稻田排水与氮素流失, 农业工程学报, 第27卷, 第6期, 52-58页, 2011.
[21]高学睿, 陆垂裕, 秦大庸, 刘淼, 胡剑, 时元智. 基于URMOD模型的城区蒸散发模拟与遥感验证, 农业工程学报, 第28卷, S1, 117-123页, 2012.
[22]高学睿,董斌,黄爽,陈秀红,王建漳,郑传举.漳河灌区水稻种植前后土壤养分变化研究[J].灌溉排水学报,2010,29(04):38-41.
[23]高学睿, 闫程晟, 王玉宝, 赵西宁, 赵旗, 吴普特. 黄土高原典型区雨水资源化潜力模拟与评[J]. 农业机械学报, 2020, 51(1): 275-283.
[24]吴普特, 高学睿, 赵西宁, 王玉宝, 孙世坤. 实体水-虚拟水“二维三元”耦合流动理论基本框架, 农业工程学报, 第32卷,第12期,1-10页,2016.
科学研究与社会服务:
1、构建了旱区农田土壤水效用评价新方法
在大面积野外土壤岩性采样分析的基础上,创新研发了农田“四水”转化模型-MODCYCLE。以此为依据,提出了农田土壤水资源的效用概念,建立了农业用水高效利用评价指标体系。实现了大尺度农田用水状态的快速诊断,为测墒灌溉、土壤水空间图化和高效管理提供了方法支撑。
农田“四水”转化过程及其模型
2、提出了区域“实体水-虚拟水”统筹管理新思路
在水足迹和虚拟水基础上,提出实体水-虚拟水“二维三元”耦合流动理论框架,建立“生态-经济”系统水资源协同调控方法,构建了实体水-虚拟水统筹的“四次平衡”水资源调配模型,丰富了水问题的解决手段,为干旱半干旱生态安全、生产安全和生活安全提供坚实的水资源支撑。
区域“实体水-虚拟水”统筹管理方法架构
3、深度参与社会服务,为蓝天碧水净土贡献力量
将科研工作和社会需求实践相结合,积极参与延安市生态农业建设、秦岭生态环境保护、秦巴山区土壤重金属污染治理、水生态文明城市建设试点、国际合作交流等工作,为我国乃至全球的“蓝天、碧水、净土”的生态梦贡献力量。
荣誉获奖:
2011年,中国水利学会青年科技创新优秀成果二等奖。
2014年,北京市2014年度优秀工程咨询成果一等奖;
2015年,山东省水利软科学优秀成果一等奖。
2016年,当选中国水利学会第六届青年科技委员会委员。
2019年,入选陕西省首届秦岭生态环境保护“青年学者”。
E-mail: gaoxr@nwsuaf.edu.cn